alliance standard v1 1
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Alliance Fire Safety and Structural Integrity Standard
Version 1.1
August 12, 2014
PROPRIETARY TO THE ALLIANCE FOR BANGLADESH WORKER SAFETY
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Alliance Fire Safety and Structural Integrity Standard: A Shared Standard to Improve Fire Safety and Structural Integrity in Bangladeshi Garment Factories
Overview
The core purpose of the Alliance for Bangladesh Worker Safety is improving the safety of workers in Bangladesh’s
ready‐made garment sector (RMG). Crucial to achieving this aim is improving the fire safety and structural integrity of RMG factories in the country. The final Alliance Fire Safety and Structural Integrity Standard will help guide
those improvements and, paired with other programmatic aspects being implemented by the Alliance, will
contribute to a safer and more equitable garment sector for Bangladeshi workers.
Development of the Standard
The Standard was developed collaboratively by a group of technical experts from the Alliance for Bangladesh
Worker Safety and the Bangladesh Accord on Fire and Building Safety. To help ensure consistency in the
countrywide evaluation of RMG factories, the technical requirements of the Alliance Standard have been
harmonized with the requirements of the factory assessment guidelines developed by Bangladesh University of
Engineering and Technology (BUET) for the NTPA. Throughout this process, input was incorporated from factory
owners in the Bangladesh RMG industry, professors from BUET, and other technical experts. In order to facilitate dialogue on realizing this common set of standards, the International Labor Organization (ILO) also played a vital
role.
In alignment with the NTPA, the Standard is founded on the requirements of the 2006 Bangladesh National
Building Code (BNBC), with a minimal number of stronger requirements deemed necessary and practical. For
example, in some areas the Standard draws on NFPA 101, the International Building Code, and their reference
documents for criteria.
Implementation
Implementation of the Standard will be supported by factory and worker training and input, rigorous assessments
by qualified assessors, and a corrective action management process that includes transparent and public dissemination of improvement indicators. Beyond tracking and reporting on action steps taken, the Alliance
organization and its members will seek to further support factory improvements through technical assistance,
implementation of functional Worker Health and Safety Committees, and in some cases financial assistance and
wage support for workers if factories are closed for remediation.
Like all technical standards, practical experience with the Standard will spur the need for modifications over time.
The standards should be periodically reviewed by qualified technical experts and modified as necessary on a
periodic basis. However, to maintain the clarity of a common standard, care will be taken to coordinate any
modification in partnership and support of the NTPA and other stakeholder initiatives.
Any feedback on the Standard should be provided to [email protected]
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TABLE OF CONTENTS
1 Part 1 Scope and Definitions ................................................................................................................................. 1
2 Part 2 Administration and Enforcement ............................................................................................................... 5
3 Part 3 General Building Requirements.................................................................................................................. 6
4 Part 4 Fire Protection Construction .................................................................................................................... 11
5 Part 5 Fire Protection Systems ............................................................................................................................ 16
6 Part 6 Means of Egress ....................................................................................................................................... 21
7 Part 7 Building Materials ..................................................................................................................................... 31
8 Part 8 Structural Design ...................................................................................................................................... 33
9 Part 9 Construction Practices and Safety ............................................................................................................ 47
10 Part 10 Building Services (MEP) .......................................................................................................................... 51
11 Part 11 Alterations/Change of Use ..................................................................................................................... 73
12 Part 12 Existing Buildings .................................................................................................................................... 75
13 Part 13 Human Element Programs ..................................................................................................................... 76
NOTICE: Revised sections are indicated by a vertical rule beside the paragraph, table, or figure in which the change
occurred. These rule are provided as an aid to the user in identifying changes from the previous edition. Where one
or more complete paragraphs have been deleted, the deletion is indicated by a bullet ( ● ) between the paragraphs
that remain.
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Part 1 Scope and Definitions
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Alliance Fire Safety and Structural Integrity Standard 1
1 Part 1 Scope and Definitions
1.1 Scope.
1.1.1 Title. The Fire Safety and Structural Integrity Standard developed by the Alliance for Bangladesh Worker
Safety (Alliance) shall be referred to herein as “the Standard” or “this Standard.”
1.1.2 Danger to Life from Fire. This Standard addresses those building features needed to minimize danger to
life from the effects of fire including smoke, heat, and toxic gases created during a fire.
1.1.3 Danger to Life from Structural Collapse. This Standard addresses and establishes minimum criteria for
the evaluation and protection from danger to life from building collapse.
1.2 Application.
1.2.1.1 This Standard shall apply to the construction, addition, alteration, movement, enlargement, replacement,
repair, installation of major equipment, use and occupancy, maintenance, removal, and demolition of all
buildings and structures used for Ready‐Made Garment factories. This Standard shall also apply to
subcontractors’ buildings and structures producing Ready‐Made Garments for Alliance members in
Bangladesh. All other requirements from BNBC Part 2 Section 1.4 shall apply.
1.2.1.2 This Standard shall apply to both new construction and existing buildings and structures as specifically
outlined in this Standard.
1.3 Purpose. The purpose of this Standard is establish a common set of minimum requirements that provide
a uniform and effective method for assessing fire and building structural safety in new and existing Ready
Made Garment factories utilized by Alliance‐affiliated vendors.
1.4 Disclaimer. The technical requirements of this Standard are intended for use by professional structural
engineers, fire protection specialists, and electrical engineers who are competent to evaluate the
significance and limitation of its content and who will accept the responsibility for the application of the
material it contains. The developers of this Standard and the Alliance for Bangladesh Worker Safety disclaim any responsibility for the stated principals and requirements and shall not be liable for any loss or
damage arising from their application.
1.5 Definitions. All definitions as stated in BNBC apply to this Standard, except as specifically supplemented
or changed herein. Additional definitions are provided within each part of this Standard.
1.5.1 Alliance‐affiliated Vendor. A ready‐made garment vendor or subcontractor who is producing garments
or products for an Alliance member.
1.6 References.
1.6.1 General. The documents listed in this section are referenced in this Standard and the portions thereof are
considered part of the requirements of this Standard to the extent of each such reference.
1.6.2 Bangladesh National Building Code (BNBC). The 2006 BNBC was enacted into Bangladesh Law on
November 16, 2006.
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1.6.3 Bangladesh Laws and Rules.
1.6.3.1 Electricity Act, 1910.
1.6.3.2 Electricity Rules, 1937.
1.6.3.3 Boiler Act, 1923, Section 2 (b) and 6
1.6.3.4 Petroleum Act, 1934
1.6.3.5 Building Construction Act, 1952
1.6.3.6 Fire Service Rules 1961
1.6.3.7 Factories Rules, 1979, Sections 3 (1), 4, 41, 43, 51, and 52
1.6.3.8 Statutory Regulatory Orders (S.R.O) 109, Act 1999, published on 25th May
1.6.3.9 Fire Resist and Extinguish Act 2003
1.6.3.10 Bangladesh Labour Act, 2006 as amended by Bangladesh Labour (Amendment) Act, 2013.
1.6.3.11 Dhaka Mahanagar Imarat Nirman Bidhimala 2008
1.6.3.12 Chittagong Imarat Nireman Bidhimala 2008
1.6.3.13 Circular _Building Permit on 19 August 2010, Ministry of Housing & Public Works/Pari – 1/Occupant‐RMG
42/2007/256, circular no Ministry of Housing & Public works/Pari – 1/Occupant‐RMG 42/2007/302 dated
on 25 November 2008
1.6.3.14 Circular_ Removal of temporary tin shade from Rooftop of RMG Factory Buildings. REF: BGMEA Letter #
BGA/Safety/18000/2011/28180, Dated: 28th December, 2011
1.6.3.15 Circular on 19 Apr 2013_RAJUK_Building Permit inside Detailed Area Plan (DAP)
1.6.4 ICC publications. International Code Council, 5203 Leesburg Pike, Suite 600, Falls Church, VA 22041 USA.
1.6.4.1 IBC, International Building Code, 2012.
1.6.4.2 IFC, International Fire Code, 2012.
1.6.4.3 IEBC, International Existing Building Code, 2012.
1.6.5 NFPA publications. National Fire Protection Association, 1 Batterymarch Park, Quincy, MA 02169‐7471
USA.
1.6.5.1 NFPA 10, Standard for Portable Fire Extinguishers, 2013.
1.6.5.2
NFPA 13, Standard for the Installation of Sprinkler Systems, 2013.
1.6.5.3 NFPA 14, Standard for the Installation of Standpipe and Hose Systems, 2013.
1.6.5.4 NFPA 20, Standard for the Installation of Stationary Pumps for Fire Protection, 2013.
1.6.5.5 NFPA 22, Water Tanks for Private Fire Protection, 2013.
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1.6.5.6 NFPA 25, Standard for the Inspection, Testing, and Maintenance of Water‐Based Fire Protection Systems,
2011.
1.6.5.7 NFPA 30, Flammable and Combustible Liquids Code, 2012.
1.6.5.8 NFPA30B, Code for the Manufacture and Storage of Aerosol Products, 2011.
1.6.5.9
NFPA 37, Standard for the Installation and Use of Stationary Combustion Engines and Gas Turbines, 2010.
1.6.5.10 NFPA 51B, Standard for Fire Prevention During Welding, Cutting, and Other Hot Work, 2014.
1.6.5.11 NFPA 70, National Electrical Code®, 2011
1.6.5.12 NFPA 72, National Fire Alarm and Signaling Code, 2013.
1.6.5.13 NFPA 80, Standard for Fire Doors and Other Opening Protectives, 2013.
1.6.5.14 NFPA 90A, Standard for the Installation of Air‐Conditioning and Ventilating Systems, 2012.
1.6.5.15 NFPA 92, Standard for Smoke Control Systems, 2012.
1.6.5.16 NFPA 101, Life Safety Code®, 2012.
1.6.5.17 NFPA 110, Standard for Emergency and Standby Power Systems, 2013.
1.6.5.18 NFPA 111, Standard on Stored Electrical Energy Emergency and Standby Power Systems, 2013.
1.6.5.19 NFPA 241, Standard for Safeguarding Construction, Alteration, and Demolition Operations, 2013.
1.6.5.20 NFPA 252, Standard Methods of Fire Tests of Door Assemblies, 2012.
1.6.5.21 NFPA 257, Standard on Fire Test for Window and Glass Block Assemblies, 2012.
1.6.6 ACI publications. American Concrete Institute, 38800 Country Club Drive, Farmington Hills, MI 48331
USA.
1.6.6.1 ACI 228.1R, In‐Place Methods to Estimate Concrete Strength, 2003.
1.6.6.2 ACI‐318, Building Code Requirements for Structural Concrete and Commentary, 2011.
1.6.7 AISC Publications. American Institute of Steel Construction, One East Wacker Drive Suite 700, Chicago, IL
60601 USA.
1.6.7.1 AISC Code of Standard Practice.
1.6.8 ASCE Publications. American Society of Civil Engineers, 1801 Alexander Bell Drive, Reston, VA 20191 USA.
1.6.8.1 ASCE 7. Minimum Design Loads for Buildings and Other Structures, 2010.
1.6.9 ASME Publications. American Society of Mechanical Engineers, Two Park Avenue, New York, NY 10016
USA.
1.6.9.1 ASME A17.1 Safety Code for Elevators and Escalators, 2010.
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1.6.10 ASTM Publications. ASTM International, 100 Barr Harbor Drive, P.O. Box C700, West Conshohocken, PA
19428 USA.
1.6.10.1 ASTM A370, Standard Test Methods and Definitions for Mechanical Testing of Steel Products, 2012.
1.6.10.2 ASTM C42, Standard Test Method for Obtaining and Testing Drilled Cores and Sawed Beams of Concrete,
2013.
1.6.10.3 ASTM C823, Standard Practice for Examination and Sampling of Hardened Concrete in Constructions,
2012.
1.6.10.4 ASTM – C39 /39M – 12a, Standard Test Method for Compressive Strength of Cylindrical Concrete
Specimens, 2012.
1.6.10.5 ASTM‐ C856, Standard Practice for Petrographic Examination of Hardened Concrete, 2011.
1.6.10.6 ASTM ‐C295, Standard Guide for Petrographic Examination of Aggregates for Concrete, 2012.
1.6.10.7 ASTM ‐C457, Standard Test Method for Microscopical Determination of Parameters of the Air‐Void
System in Hardened Concrete, 2011.
1.6.10.8 ASTM E 84, Standard Test Method for Surface Burning Characteristics of Building Materials, 2010.
1.6.10.9 ASTM E 119, Standard Test Methods for Fire Tests of Building Construction and Materials, 2010b.
1.6.10.10 ASTM E 136, Standard Test Method for Behavior of Materials in a Vertical Tube Furnace at 750
Degrees C, 2009b.
1.6.10.11 ASTM E 814, Standard Test Method for Fire Tests of Through‐Penetration Fire Stops, 2010.
1.6.11 FM Global publications. FM Global, 270 Central Avenue, Johnston, RI 02919‐4923 USA.
1.6.11.1 FM Data Sheet 7‐1, Fire Protection for Textile Mills, January 2012.
1.6.11.2
FM Data Sheet 8‐7, Baled Fiber Storage, January 2000.
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Part 2 Administration and Enforcement
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2 Part 2 Administration and Enforcement
2.1 General. The administration of this Standard, including interface with factory owners and performance of
factory compliance assessments, will be administered by the Alliance.
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Part 3 General Building Requirements
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3 Part 3 General Building Requirements
3.1 General. This section describes the requirements for building and structures based on use and
occupancy, building height and area, and construction type.
3.2 Definitions.
3.2.1
High‐rise building. Structures or buildings where the highest occupiable floor is located more than 20 m
(65 ft) above the grade level around the building.
3.2.2 Occupiable roof. A roof ‐level shall be considered occupiable where access to the roof is provided and is
not limited to mechanical equipment.
3.3 Use and Occupancy.
3.3.1 General. Structures or portions of structures shall be classified based on occupancy in one or more of the
following occupancies listed below. For spaces that are used for more than one occupancy, the space
shall be classified based on all the occupancies present and shall meet the requirements of Section 0. All
other requirements of BNBC Part 3 Sections 1.3 and 2.1 shall be met.
3.3.2
Occupancy A: Residential. This occupancy shall include structures or portions used for sleeping and living accommodations to related or unrelated groups of people. [See BNBC Part 2 Section 2.1.1]
3.3.3 Occupancy B: Educational Buildings. This occupancy shall include structures or portions used for daycare
(B2). [See BNBC Part 3 Section 2.1.2]
3.3.4 Occupancy E: Assembly Buildings. This occupancy shall include structures or portions where large groups
of people congregate or assembly. Examples would include: prayer halls and dining halls. Most factories
would have subcategories of E3 (Large Assembly without fixed seats) and E4 (Small Assembly without
fixed seats, less than 300 persons). [See BNBC Part 3 Section 2.1.5]
3.3.5 Occupancy F: Business Buildings. This occupancy shall include structures or portions used for the
transaction of business including offices (F1). [See BNBC Part 3 Section 2.1.6]
3.3.6 Occupancy G: Industrial Buildings. This occupancy shall include structures or portions used where
materials are fabricated, assembled, or processed. The G2, Moderate Hazard Industrial Occupancy will be
the predominant occupancy type in most RMG factories. [See BNBC Part 3 Section 2.1.7]
3.3.7 Occupancy H: Storage Buildings. This occupancy shall include structures or portions used for the storage
of material, products, and/or equipment. The H2, Moderate Risk Fire Storage will encompass the majority
of the storage facilities used in the RMG factories. [See BNBC Part 3 Section 2.1.8]
3.3.8 Occupancy J: Hazardous Buildings. This occupancy shall include structures or portions used for the
storage, processing, handling, or manufacture of any hazardous material. [See BNBC Part 3 Section 2.1.9]
3.3.9 Occupancy K: Miscellaneous Buildings. This occupancy shall include structures or portions used for
special structures not classified above. This could include water treatment plants, generator buildings, electrical buildings, and other utility buildings. [See BNBC Part 3 Section 2.1.10]
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3.4 Mixed Use.
3.4.1 General. Each portion of a building or structure shall be classified individually according to Section 3.3.
When a building contains more than one occupancy, the building or portion shall comply with the
applicable requirements of 3.4.2, 3.4.3, or 3.4.4. The mixed use provisions of BNBC Part 3 Section 2.3
shall apply except where modified by this section of this Standard.
3.4.2
Accessory occupancies. Occupancies that are incidental to the main occupancy shall be considered
accessory occupancies to the main occupancy when they do not exceed 10 percent of the building area of
the story in which they occur. [See BNBC Part 3 Section 2.1]
3.4.2.1 Separation of accessory occupancies. No occupancy separation shall be required between accessory and
main occupancies except where required by 3.4.2.1.1 through 3.4.2.1.10.
3.4.2.1.1 Daycare. Daycare occupancies which are accessory to other occupancies shall be located on the
ground floor with a maximum travel distance of 9 m (30 ft) or may be located one story above the
level of exit discharge where direct access to an exit enclosure is provided.
3.4.2.1.2 Boiler or furnace rooms. Any room or space housing boilers or other heat producing equipment shall
be separated from other occupancies by a minimum 1 hour construction or by a minimum spatial
separation of 3 m (10 ft) where located exterior to the building.
3.4.2.1.3 Generators. Generator sets shall be separated from all other occupancy areas by a minimum 2 hour
construction or by a minimum spatial separation of 3 m (10 ft) where located exterior to the building.
Fuel tanks shall be limited to a maximum 2500 L (660 gal) when located in a building with other
occupancies. Exhaust shall be in accordance with NFPA 37. All exhaust systems shall discharge to the
exterior of the building in a safe location.
3.4.2.1.4 Oil Filled Transformers. Rooms used for the housing of oil‐filled transformers shall be in compliance
with BNBC Part 4 Section D 15 for high‐rise buildings. Oil filled transformers for non high‐rise
buildings shall be separated by a minimum 2 hour fire resistive rated construction or by a minimum
spatial separation of 3 m (10 ft) where located exterior to the building.
3.4.2.1.5
Storage. Rooms used for storage of combustible materials shall be separated from the surrounding
occupancy with a minimum 1 hour construction. In process storage open to the surrounding
occupancy is not required to be separated when the floor is provided with automatic sprinkler
protection in accordance with Section 5.3 or meeting the requirements of 3.4.2.1.6.
3.4.2.1.6 Miscellaneous storage. Storage that does not exceed 2.45 m (8 ft.) in height, is accessory to other
occupancies (see 3.4.2), does not exceed 23 m2 (250 ft2) in any one area and is separated by a
minimum 3.0 m (10 ft) from other storage areas.
3.4.2.1.7 Parking. Parking of motor vehicles shall not be allowed in existing buildings unless the parking area is
separated by 1 hr fire‐resistive rated construction or automatic sprinkler protection is provided. In
addition, parking shall only be permitted if adequate provisions for carbon monoxide
detection/removal are provided, and if parking areas were originally designed or subsequently
approved for the parking of vehicles by appropriate legislative parties.
3.4.2.1.8 Sleeping Areas. Sleeping areas shall be located on the ground floor with a maximum travel distance
of 9 m (30 ft) or may be located on upper floors where direct access to an exit enclosure is provided.
Automatic smoke detection shall be provided for these areas and areas between the sleeping area
and exit to alert the occupants for developing fire conditions.
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3.4.2.1.9 Flammable and Combustible liquid.
3.4.2.1.9.1 A license must be obtained in accordance with the Petroleum Act for all storage of Class I petroleum
greater than 25 L (6 gal).
3.4.2.1.9.2 A license must be obtained in accordance with the Petroleum Act for all storage of Class II petroleum
greater than 1000 L (264 gal) individually and 2000 L (528 gal) aggregate.
3.4.2.1.9.3 Licenses required by this section must be prominently posted and kept up‐to‐date.
3.4.2.1.10 Chemical storage. All other chemical storage shall be in compliance with BNBC Part 3 Section 2.13.
3.4.2.1.11 The storage or use of liquefied or compressed flammable gas cylinders shall be prohibited within the
factory building.
3.4.3 Nonseparated Occupancies. Where more than one occupancy occurs and is not separated in accordance
with 3.4.4, the most restrictive requirements for each occupancy shall apply for fire protection, means of
egress, type of construction, and allowable building height and area. No separation is required between
nonseparated occupancies meeting the requirement of this section.
3.4.4
Separated Occupancies. New and existing occupancies shall be separated from other occupancies in accordance with BNBC Part 3 Sections 2.3 and 3.1.5.
3.5 Building Height and Areas.
3.5.1 General. The general requirements for height limitations for buildings based on open space, frontage,
and floor area ratios in accordance with BNBC Part 3 Section 1.8 shall be met for all new construction.
Note: no non‐rated construction is allowed for the occupancies found in the RMG factories for new
construction per the BNBC.
3.5.2 New Construction.
3.5.2.1 Construction of new non‐high‐rise factories containing G and/or H2 occupancies (factories) shall be Type 1
or Type 2 construction as required in BNBC Part 2 Table 3.2.4.
3.5.2.2 Construction of new non‐high‐rise buildings containing J occupancies shall be Type 1 construction.
3.5.3 Existing Buildings.
3.5.3.1 Existing buildings greater than 2 stories with nonrated construction shall not exceed 2000 m2 (22,000 sq.
ft.) per floor unless automatic sprinkler protection is provided throughout.
3.6 High Rise Buildings.
3.6.1 General. High rise buildings shall be defined as those structures or buildings where the highest
occupiable floor is located more than 20 m (65 ft) above the grade level around the building. The
requirements of this section shall apply to both new and existing buildings. See BNBC Part 3 Section
2.10.6.
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3.6.2 Construction.
3.6.2.1 New construction.
3.6.2.2 Construction of new high‐rise buildings shall be limited to Type 1 construction as required in BNBC Part 3
Section 2.10.6.2. This requirement shall apply to all occupancy types and not just Type F.
3.6.2.3
Existing buildings.
3.6.2.4 Type 3 and nonrated construction shall not be allowed for high‐rise buildings.
3.6.3 Automatic sprinkler system. Automatic sprinkler systems shall be provided throughout all new and
existing high‐rise buildings with an occupiable floor greater than 23 m (75 ft) above the finished grade in
accordance with Section 5.3.
3.6.4 Fire detection and alarm system. An automatic fire detection and alarm system shall be provided
throughout all new and existing high‐rise buildings in accordance with Section 5.7.
3.6.5 Emergency power. An emergency power system shall be provided to supply power to the following
loads:
1. Exit signs and means of egress illumination
2. Automatic fire detection systems
3. Fire alarm systems
4. Electrically powered fire pumps.
5. Smoke control systems
6. Elevators/lifts
3.6.5.1 Battery powered signs and exit lights. Existing battery‐operated or uninterruptable power supply
systems can be continued to be used to supply exit signs and means of egress illumination where monthly
testing of such systems is conducted and properly documented.
3.6.5.2 Duration. Emergency power shall be provided for a minimum duration of 60 min.
3.7 Atriums.
3.7.1 General. This section shall apply to buildings or structures containing vertical openings known as atrium.
3.7.2 Definition. An atrium is an opening connecting two or more stories other than enclosed stairways,
elevators, plumbing, electrical, mechanical, or other equipment that is enclosed in fire‐rated enclosures.
Stories do not include mezzanines that are open.
3.7.3 Fire alarm system. An automatic fire alarm system shall be provided throughout all new and existing
buildings containing an atrium in accordance with Section 5.7.
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3.7.4 Separation. Enclosure of new and existing atrium shall be in accordance with BNBC Part 3 Section
3.1.17.f) with the following modification. Glass walls and inoperable windows shall be permitted in lieu of
the 1‐hr. fire barrier where all of the following items are met:
(1) Automatic sprinklers are placed on both sides of the glass at maximum 1.83 m (6 ft) intervals.
(2) These sprinklers are placed no more than 305 mm (12 in.) from the glass to allow wetting the entire
surface of the
glass.
(3) The glass is of wired, tempered, or laminated glass held in place by gasketed frames allowing the
glass to deflect without breaking prior to operation of the sprinklers.
(4) Sprinklers can be eliminated from the atrium side of the glass on levels where there is not a walking
surface on the atrium side above the lowest level of the atrium.
(5) Doors in the glass walls are smoke‐resistant and are self ‐ or automatic‐closing.
(6) The glass is vertically continuous, not provided without horizontal elements that would prevent the
sprinklers from wetting the entire surface of the glass.
3.7.5 Engineering Analysis. An engineering analysis shall be conducted of the atria that demonstrates that the
building is designed to keep the smoke layer interface above the highest unprotected opening to
adjoining spaces , or 1830 mm (6 ft) above the highest floor level open to the atrium for 20 min. The
results of the engineering analysis may require smoke control, separation, sprinkler protection and/or
other protection features.
3.7.6 Smoke control. Smoke control required by the engineering analysis in new and existing construction shall
be designed in accordance with NFPA 92 unless the requirements of 3.7.6.1 are met.
3.7.6.1 Atria in existing buildings shall not be required to have a smoke control system provided the entire atrium
is separated from the rest of the building by 2 hr fire‐resistance rated construction and where egress
paths do not pass through the atrium and where emergency workers are not required to access the
atrium.
3.8 Type of Construction.
3.8.1 General. Buildings and structures that are erected or to be erected, altered or extended in height or area
shall meet the construction types as listed in BNBC Part 3 Chapter 3.
3.8.2 Separation. Construction types shall be separated by fire walls or provided with fire‐resistance rated
walls and separation distance in accordance with Section 3.9.
3.8.2.1 Fire walls. Fire walls shall be built in accordance with IBC Section 706.
3.8.2.2 No separation. When no separation is provided between construction types, the lesser construction type
shall apply to each building that is not separated in accordance with Section 3.8.2 and 3.9.
3.8.2.3 The provisions of 3.8.2.2 shall not apply to construction of an unprotected steel frame structure on the
roof of a building.
3.9 Separation Distances. All new buildings and structures shall be separated from other buildings in
accordance with BNBC Part 3 Table 3.2.2 and BNBC Part 3 Section 2.4.1.3. Exterior walls of exit enclosures
in new and existing buildings must meet the requirements of BNBC. (See also 6.14.5).
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Part 4 Fire Protection Construction
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4 Part 4 Fire Protection Construction
4.1 General. This section describes the requirements for materials, systems and assemblies used for
structural fire resistance and fire resistance rated construction separation to separate the spread of fire
and smoke both internal within a building or structure and from structure to structure.
4.2 Definitions.
4.2.1 Fire wall. A fire‐resistance‐rated wall having protected openings, which restricts the spread of fire and
extends continuously from the foundation to or through the roof, with sufficient structural stability under
fire conditions to allow collapse of construction on either side without collapse of the wall. [IBC 702.1]
4.3 Fire Resistance. The fire resistance ratings of structural elements, building components or assemblies
shall be determined in accordance with the test procedures outlined in ASTM E 119 or UL 263.
4.4 Fire resistance of structural members. The fire resistance of structural members shall be in compliance
with BNBC Part 3 Chapter 3 and Table 3.3.1 (repeated below).
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Table 3.3 .1
Required Fire Resistance Ratings of Building Elements (in hours)
for Various Types of Construction
Building Element Type of Construction
Type 1 Type 2 Type 3
(1) Exterior bearing walls 4 2 1← (see Note a) →
(2) Exterior nonbearing walls and curtain walls 2 1.5 1
← (see Note a) →
(3) Interior bearing walls, bearing partitions, columns, girders,
trusses (other than roof truss es) and framing
a) Supporting more than one floor 4 2 2
b) Supporting one floor only or a roof only 3 1.5 1
(4) Structural frame and structural members supporting w 3 1.5 1
← (see Note b) →
(5) Floor construction including beams 3 1.5 1
(6) Roof construction, including beams, trusses
and framing, arches and roof deck
a) 5 m or less in height to lowest member 2 1.5 1
b) More than 5 m but less than 7 m in height to lowe 1 1 1
c) 7 m or more in height to lowest member 0.5 0.5 0.5
(7) Fire walls and party walls 4 2 2
← (see Note c) →
(8) Enclosure of fire exits 2 2 2
(9) Shafts (other than exits) and elevator hoistways 2 2 2
(10) Access corridors leading to fire exits 1 1 1
(11) Vertical separation of tenant spaces 1 1 1
(12) Nonbearing partition walls 0.5 0.5 0.5
(13) False/suspended ceilings 0.5 0.5 0.5
(14) Smoke barriers 1 1 1
(15) Mixed occupancy s eparation ← (see Note d) →
Note a : Not less t han the rating based on fire separation distance (see Table 3.2.2)
b : Not less than fire resistance rating of wall support ed
c : Not less than the rating required in Table 3.2.1
d : Fire resistance ratings of mixed occupancy separation, where permitted, shall be as require
in Table 3.2.1.
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4.4.1 Fire Resistance Ratings of Common Elements. See Table 4.1.1 from BNBC Part 4 relisted as Table 4.4.1
below. A calculated fire resistance shall be permitted to be demonstrated using the provisions of
alternative methods such as those presented in IBC, Section 722.
Table 4.4.1
Fire Resistance Rating of Common Construction Elements
Structural Element Fire Resistance Rating
1. SOLID WALLS
a. 75 mm thick walls of clay bricksb. 125 mm thick walls of clay bricksc. 250 mm thick walls
0.75 hour1.5 hours5.0 hours
2. RC WALLS
a. 150 mm thick RC wall
b. 200 mm thick RC wallc. 250 mm thick RC wallsd. 300 mm thick RC walls
3.0 hours
4.0 hours5 hours6 hours
3. RC SLABS
a. 100 mm RC slabs with 13 mm coverover reinforcement
b. 150 mm RC slabs with 19 mm coverover reinforcement
c. 200 mm RC slabs with 19 mm coverover reinforcement
d. 250 mm RC slabs with 25 mm coverover reinforcement
1 hours
2.5 hours
3.75 hours
5.0 hours
4. RC COLUMNS (1:2:4)
a. 250 mm x 250 mm with 25 mm coverover reinforcement
b. 300 mm x 300 mm with 25 mm coverover reinforcement
c. 400 mm x 400 mm with 25 mm coverover reinforcement
d. 400 mm x 400 mm with 50 mm coverover reinforcement
3.0 hours
4.0 hours
6.0 hours
8.0 hours
4.4.2
Parapets. Parapets that are constructed on rated exterior construction shall be of the same rating as the exterior wall rating in accordance with BNBC Part 3 Section 3.1.13.
4.5 Separation.
4.5.1 General. Separation of floors, occupancies, hazards, exit enclosures shall be provided with fire‐resistive
rated construction fire barriers in accordance with this section.
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4.5.2 Fire Barriers. Fire barriers shall be classified as 1‐, 2‐, or 3‐hr fire‐resistive rated construction.
4.5.2.1 Fire barrier shall be continuous from outside wall to outside wall, from one fire barrier to another or
combination thereof and shall be continuous through all concealed spaces.
4.5.2.2 Fire barriers shall be constructed of materials meeting the testing requirements of ASTM E 119.
4.5.2.3
All openings in fire barriers shall be protected with fire‐resistant protective opening protection in
accordance with 0.
4.5.3 Vertical openings. Openings through a floor/ceiling assembly shall be protected shafts in accordance with
4.5.7 unless meeting the requirements of 4.5.3.1 or 4.5.3.2.
4.5.3.1 A shaft enclosure is not required for penetrations by pipe, tube, conduit, wire, cable and vents protected
in accordance with 4.7
4.5.3.2 A shaft enclosure is not required for stairs or other floor openings connecting only two stories that do not
serve as a required exit and is separated from floor openings serving other floors by construction as
required for shafts, and does not connect to a basement area or storage or hazardous occupancies.
4.5.4
Doors.
4.5.4.1 Fire doors assemblies shall conform to NFPA 252, BS 476 Part 22, EN 1364‐1, GB 12955‐2008, or IS 3614
Part II. The ASTM standard referenced in the BNBC Part 4 Section 1.5.4 has been withdrawn.
4.5.4.2 All fire doors shall be self ‐ or automatic closing and upon closing shall include positive latching hardware.
4.5.5 Windows.
4.5.5.1 Fire windows shall conform to NFPA 257 or British, European, Chinese, or Indian standard for fire window
tests. The ASTM standard referenced in the BNBC Part 4 Section 1.5.5 has been withdrawn.
4.5.6 Ducts. Ducts penetrating fire‐resistance rated assemblies shall be protected with listed fire dampers.
Dampers shall
be
1 ½ hr.
rated
dampers
when
located
in a 2 hr or less
fire
‐resistance
rated
assembly.
Dampers shall be 3 hr rated dampers when located in a 3 hr or greater fire‐resistance rated assembly.
4.5.7 Shafts.
4.5.7.1 Fire‐resistance rating. A shaft enclosure shall be have a minimum fire‐resistance rating of 2 hr when
connecting four stories or more and a minimum fire‐resistance rating of 1 hr when connecting three
stories or less.
4.5.7.2 Continuity. A shaft enclosure shall be constructed as a fire barrier and shall meet the continuity
requirements of 4.5.2.1.
4.5.7.3 Openings. Openings in shafts shall be limited to those necessary for the purpose of the shaft. These
openings shall be protected as required in 0.
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4.6 Opening Protectives. Openings in fire resistance rated walls shall be protected in accordance with BNBC
Part 4 Section 2.5 and the following.
(1) 3 hr fire barriers protected with 3 hr fire protective opening assemblies
(2) 2 hr fire barriers protected with 1.5 hr fire protective opening assemblies
(3) 1 hr fire barriers protected with ¾ hr fire protective opening assemblies
(4)
1 hr exit
enclosures
and
vertical
shafts
protected
with
1 hr fire
protective
opening
assemblies.
4.7 Penetrations. Penetrations of fire resistive rated assemblies shall be protected with a listed through‐
penetration firestop system tested in accordance with ASTM E814.
4.7.1 Penetrations in a concrete or masonry wall by steel, ferrous or copper conduits, pipes, tubes or vents with
a maximum 150 mm (6 in.) nominal diameter where the area of the opening through the wall does not
exceed 0.0929 m2 (144 in2) shall be permitted to be protected using concrete, grout or mortar installed
the full thickness of the wall to maintain the fire‐resistance rating.
4.7.2 Penetrations in a single concrete floor by steel, ferrous or copper conduits, pipes, tubes or vents with a
maximum 150 mm (6 in.) nominal diameter shall be permitted to be protected using concrete, grout or
mortar installed the full thickness of the floor or the thickness required to maintain the fire‐resistance
rating. The
penetrating
items
shall
not
be
limited
to the
penetration
of a single
concrete
floor,
provided
the area of the opening through each floor does not exceed 0.0929 m2 (144 in2).
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Part 5 Fire Protection Systems
PROPRIETARY TO THE ALLIANCE FOR BANGLADESH WORKER SAFETY
Alliance Fire Safety and Structural Integrity Standard 16
5 Part 5 Fire Protection Systems
5.1 General. This section describes the requirements as to where fire protection systems are required and
the requirements for design, installation and operation of these fire protection systems.
5.2 Definitions. (Reserved)
5.3
Automatic Sprinkler Systems.
5.3.1 General. Automatic sprinklers shall comply with this section.
5.3.2 Where required. Automatic sprinkler systems shall be installed in new and existing buildings and
structures as described in the following subsections.
5.3.2.1 High‐Rise Buildings.
5.3.2.1.1 Automatic sprinkler protection shall be installed throughout all portions of new and existing high‐rise
buildings with an occupiable floor greater than 23 m (75 ft) above the finished grade in accordance
with 5.3.3.
5.3.2.1.2
Required automatic sprinkler protection shall be installed in accordance with 5.3.3.
5.3.3 Installation requirements. All installation and design requirements outlined in BNBC Part 4 Chapter 4
shall be replaced by the requirements of NFPA 13. Pipe schedules shall not be used to size pipe. All
systems shall be hydraulically calculated to meet the required NFPA 13 design requirements.
5.3.3.1 Documentation. Installation of new automatic sprinkler systems shall be required to provide shop
drawings and hydraulic calculations as outlined in NFPA 13. These drawings shall include all details as
outlined in NFPA 13.
5.3.3.2 Documentation Review. All sprinkler system installations shall be submitted for review to the Alliance.
5.3.4 Acceptance testing. Testing of the installation shall be conducted in accordance with NFPA 13 acceptance
testing requirements.
Documentation
of all
testing
shall
be
submitted
for
review
to the
Alliance.
The
Owner shall contact the Alliance prior to conducting the final acceptance testing of the sprinkler
installation to allow the Alliance the option of witnessing this testing and conduct a final inspection of the
installation.
5.3.5 Supervision and alarms.
5.3.5.1 Valves. All valves controlling automatic sprinkler systems, fire pumps, and water supply systems shall be
electrically supervised by a listed fire alarm system control unit.
5.3.5.2 Alarms. An approved audible device shall be connected to every automatic sprinkler system and shall be
activated by waterflow equal to the flow of one sprinkler. Where a fire alarm system is installed,
activation of the waterflow shall activate the fire alarm system.
5.3.6
Testing and maintenance. Automatic sprinkler systems shall be tested and maintained in accordance
with NFPA 25.
5.3.6.1 Storage clearance. All storage shall be maintained with a 460 mm (18 in.) minimum clearance from the
top of storage to the sprinkler deflector.
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5.3.6.2 Solid‐shelves.
5.3.6.2.1 Racks. Unless in‐rack automatic sprinklers have been designed and installed, solid shelf racking shall
not be used. A minimum of 50% openings in shelving material shall be considered open shelves. See
NFPA 13 for further clarification.
5.3.6.2.2 Shelves. Shelving units not greater than 760 mm (30 in.) deep can have solid shelves. Back to back
solid shelf units not greater than 760 mm (30 in.) deep each with a solid vertical barrier can have solid
shelves. See NFPA 13 for further clarification.
5.3.6.3 Aisles. Minimum aisles shall be maintained free of storage in accordance with NFPA 13 based on the
design criteria used for the sprinkler system.
5.4 Standpipe Systems.
5.4.1 General. Standpipe fire protection systems shall comply with this section.
5.4.2 Where required. A Class III standpipe system (both a 40 mm connection with attached hose and a 65 mm
connection) shall be installed throughout all new and existing buildings and structures where the highest
occupied floor is more than 10 m (33 ft) above grade or more than 10 m (33 ft) below grade.
5.4.2.1 Where the building is protected throughout with automatic sprinklers a Class I standpipe (65 mm
connections without attached hose) shall be permitted. The installation of Occupant Use (Class II 40 mm
connections) shall not be required.
5.4.3 Installation requirements. All installation and design requirements outlined in BNBC Part 4 Chapter 4 for
combined standpipe and automatic sprinkler systems shall be replaced by the requirements of NFPA 14
with a minimum pressure of 450 kPa (65 psi) at the hydraulically most remote hose connection.
Standalone standpipe systems shall meet the local BNBC requirements with a minimum 450 kPa (65 psi)
pressure at the hydraulically most remote hose connection or NFPA 14.
5.4.3.1 Documentation. Installation of new combined standpipe and sprinkler systems shall be required to
provide shop drawings and hydraulic calculations as outlined in NFPA 14. These drawings shall include all
details as outlined in NFPA 14.
5.4.3.2 Documentation Review. All standpipe system installations shall be submitted for review by the Alliance
for review prior to commencement of installation.
5.4.3.3 Acceptance testing. Testing of the installation shall be conducted in accordance with NFPA 14 acceptance
testing requirements. Documentation of all testing shall be submitted for review by the Alliance. The
Owner shall contact the Alliance prior to conducting the final acceptance testing of the standpipe
installation to allow the Alliance the option of witnessing this testing and conduct a final inspection of the
installation.
5.4.4 Location of hose connections.
5.4.4.1
Standpipe hose connections shall be located in all required stairwells at each floor level including occupiable roofs.
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5.5 Water supply.
5.5.1 Installation requirements. All new installations and design requirements outlined in BNBC Part 4 Chapter
4 for water supplies shall be replaced by the requirements of NFPA 20 (fire pumps), NFPA 22 (water
tanks), and NFPA 24 (underground water mains). Existing water supplies shall be evaluated for reliability
and support the hydraulic demands and duration of any new or existing systems supplied.
5.5.1.1
Documentation. Installation of new fire protection water supply systems shall be required to provide
shop drawings and hydraulic calculations as outlined in NFPA 13, 20, 22, and 24. These drawings shall
include all details as outlined in NFPA 13, 20, 22, and 24.
5.5.1.2 Documentation Review. All fire protection water supply system installations shall be submitted for
review by the Alliance for review prior to commencement of installation.
5.5.1.3 Acceptance testing. Testing of the installation shall be conducted in accordance with NFPA 13, 20, 22 and
24 acceptance testing requirements. Documentation of all testing shall be submitted for review by the
Alliance. The Owner shall contact the Alliance prior to conducting the final acceptance testing of the
installation to allow the Alliance the option of witnessing this testing and conduct a final inspection of the
installation.
5.5.2
Roof ‐mounted tanks. No new roof ‐mounted tanks to supply water to new standpipe or sprinkler
protection installations shall be allowed without complying with the requirements of Part 8.
5.5.3 Size of tanks. Tanks shall be sized for the minimum duration for fire protection supply as outlined in
5.3.3.
5.5.4 Fire department connections. Fire department (Siamese) inlet connections shall be provided to allow fire
department pumper equipment to supplement the fire protection systems. Fire department outlet
connections shall be provided to allow fire department pumper vehicles to draw water from ground‐level
or underground water storage tanks. Connections shall match the Fire Service and Civil Defence hose
thread standard.
5.5.5 Acceptance. Acceptance testing of the installation shall be in accordance with NFPA 20, 22, and 24
testing requirements. Documentation of all testing shall be submitted to the Alliance for review prior to
final acceptance by the Alliance. The Owner shall contact the Alliance prior to conducting the final
acceptance testing of the fire pump installation to allow the Alliance the option to witness this test and to
conduct a final inspection of the installation.
5.6 Portable Fire Extinguishers. Portable fire extinguishers shall be installed throughout all new and existing
facilities in accordance with BNBC Part 4 Section 4.10 and NFPA 10.
5.6.1 Spacing. Extinguishers shall be placed so that maximum travel distance to the nearest unit shall not
exceed 30 m (100 ft).
5.6.2 Mounting height.
5.6.2.1
Fire extinguishers having a gross weight not exceeding 18.14 kg (40 lb) shall be installed so that the top of the fire extinguisher is not more than 1.53 m (5 ft) above the floor (NFPA 10 6.1.3.8).
5.6.2.2 Fire extinguishers having a gross weight greater than 18.14 kg (40 lb) (except wheeled types) shall be
installed so that the top of the fire extinguisher is not more than 1.07 m (3½ ft) above the floor (NFPA 10
6.1.3.8).
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5.7 Fire Alarm and Detection.
5.7.1 General. Fire alarm and detection systems shall comply with this section.
5.7.2 Definitions.
5.7.2.1 Manual alarm. A fire alarm system that activates the system alarm(s) and occupant notification devices
by manual initiation.
5.7.2.2 Automatic alarm. A fire alarm system that activates the system alarm(s) and occupant notification
devices by automatic initiating devices (e.g. smoke detector, heat detector, sprinkler waterflow).
5.7.3 Where required. Automatic or manual fire alarm and detection systems shall be installed throughout all
new and existing buildings and structures where required in 5.7.3.2 through 5.7.3.9.
5.7.3.1 Where automatic detection is required in 5.7.3.2 through 5.7.3.7, initiating devices shall include either
smoke or fire detection devices spaced in accordance with NFPA 72. When complete sprinkler protection
is provided throughout a floor with waterflow devices designed to initiate the alarm notification, smoke
and fire detection devices can be eliminated throughout that floor.
5.7.3.2
Occupancy B. A manual fire alarm system shall be provided in all new and existing day care facilities that are located in other occupancies or in buildings greater than 2 stories. When located in buildings with
other occupancies requiring an automatic fire alarm system, an automatic fire alarm system shall be
provided.
5.7.3.3 Occupancy E. An automatic fire alarm system shall be provided throughout all new and existing assembly
occupancies.
5.7.3.4 Occupancy F. A manual fire alarm system shall be provided throughout all new and existing 3 or more
story buildings. When located in buildings with other occupancies requiring an automatic fire alarm
system, an automatic fire alarm system shall be provided. An automatic fire alarm and detection system
shall be provided throughout all new and existing high‐rise buildings as outlined in Section 3.6.
5.7.3.5
Occupancy G1. A manual fire alarm system shall be installed throughout all new and existing low‐hazard industrial occupancies. When located in buildings with other occupancies requiring an automatic fire
alarm system, an automatic fire alarm system shall be provided.
5.7.3.6 Occupancy G2. An automatic fire alarm and detection system shall be provided throughout all new and
existing moderate hazard industrial occupancies.
5.7.3.7 Occupancy H. A manual fire alarm system shall be provided throughout all new and existing storage
occupancies. When located in buildings with other occupancies requiring an automatic fire alarm system,
an automatic fire alarm system shall be provided.
5.7.3.8 Occupancy J. An automatic fire alarm and detection system shall be provided throughout all new and
existing hazardous occupancies.
5.7.3.9 Occupancy K. A manual fire alarm system shall be provided throughout all miscellaneous occupancies.
When located in buildings with other occupancies requiring an automatic fire alarm system, an automatic
fire alarm system shall be provided.
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5.7.4 Installation requirements. All installation and design requirements outlined in BNBC Part 4 Section 4.4
shall be supplemented by the requirements of NFPA 72.
5.7.4.1 Documentation. Installation of new fire alarm and detection systems shall be required to provide shop
drawings and as outlined in NFPA 72.
5.7.4.2 Documentation Review. All fire alarm installations shall be submitted for review by the Alliance for
review prior to commencement of installation.
5.7.4.3 Acceptance testing. Testing of the installation shall be conducted in accordance with NFPA 72 acceptance
testing requirements. Documentation of all testing shall be submitted for review by the Alliance. The
Owner shall contact the Alliance prior to conducting the final acceptance testing of the fire alarm
installation to allow the Alliance the option of witnessing this testing and conduct a final inspection of the
installation.
5.7.4.4 Evacuation. Automatic alarm evacuation shall be provided upon initiation of any of the following: manual
alarm box, waterflow alarm, or two or more automatic smoke or fire detection devices. Notification shall
be provided throughout the building for total evacuation. Existing partial evacuation systems shall be
replaced.
5.7.5
Monitoring. Until that time that a central station monitoring service or direct connection to the Fire
Service and Civil Defence can be set up, a person shall be assigned to contact the fire department in the
event of fire alarm activation. An annunciator shall be located in a constantly attended location to alert
this person.
5.7.6 Air handling equipment.
5.7.6.1 Smoke detectors listed for use in air distribution systems shall be located as required in NFPA 90A.
5.8 Automatic and manual heat and smoke ventilation.
5.8.1 New Construction. Smoke and heat vents shall be installed in buildings as required by BNBC Part 4
Section B 2.
5.8.2 Smoke and heat vents shall not be interconnected with the automatic fire alarm system.
5.8.3 In existing buildings, automatic heat and smoke vents shall be converted to manual‐only operation if the
building is provided with automatic sprinklers.
5.9 Fire Department Elevators (Lifts).
5.9.1 New construction. Fire lifts shall be installed in all high‐rise buildings in accordance with BNBC Part 4
Section 2.11.
5.9.2 Existing construction. Fire lifts shall be installed where required by the Fire Service and Civil Defence in
accordance with BNBC Part 4 Section 2.11.
5.9.3 Recall. Phase 1 and Phase 2 Elevator recall shall be provided for new construction in accordance with
ASME A17.1.
5.9.4 Shafts. All fire department lifts shall be installed in shafts in accordance with 4.5.7 of this Standard.
5.10 Cooking Operations. Cooking operations that produce grease laden vapors shall be prohibited unless
ventilation and a fire protection system is provided in accordance with NFPA 96.
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Part 6 Means of Egress
PROPRIETARY TO THE ALLIANCE FOR BANGLADESH WORKER SAFETY
Alliance Fire Safety and Structural Integrity Standard 21
6 Part 6 Means of Egress
6.1 General. Buildings shall be provided with a means of egress system for all occupants to safely evacuate
from buildings and structures.
6.2 Definitions. (Reserved)
6.3
General Means of Egress
6.3.1 Separation of Means of Egress.
6.3.1.1 Corridors. Exit access corridors serving an occupant load exceeding 30 shall be separated by walls having
a fire resistance rating of 1 hr in accordance with 4.5 unless provided with automatic sprinkler protection
throughout the story or building.
6.3.1.2 Exits. Exits shall be enclosed with fire‐resistance rated construction as outlined in 6.3.1.2.1 through
6.3.1.2.3.
6.3.1.2.1 Exits connecting three or fewer stories shall be enclosed with a minimum 1‐hr fire‐resistance rating.
6.3.1.2.2
Exits connecting four or more stories shall be enclosed with a minimum 2‐hr fire‐resistance rating.
6.3.1.2.3 Exits shall be enclosed with the same fire‐resistance rating as the floor penetrated but will not need
to exceed 2 hr.
6.3.1.3 Exterior exit stairs. Exterior exit stairs shall be separated from the building with the rating requirements
of 6.3.1.2. The rating of the exterior wall shall extend 3.05 m (10 ft) beyond the ends of the stair
structure.
6.3.2 Interior Finish. All interior finishes for exits shall be limited to a flame spread index of 75 and smoke
developed of 450 as tested in accordance with ASTM E 84.
6.3.3 Headroom. All means of egress shall have a minimum ceiling height of 2.3 m (7 ft 6 in.) with projections
from the
ceiling
not
less
than
2.03
m (6 ft 8 in.).
The
minimum
ceiling
height
shall
be
maintained
for
at
least 2/3 of the space or room as long as the remaining area shall be not less than 2.03 m (6 ft 8 in.).
Headroom on stairs shall not be less than 2.03 m (6 ft 8 in.).
6.3.4 Walking surfaces.
6.3.4.1 Changes in elevation. Abrupt changes in elevation of walking surfaces shall not exceed ¼ in. unless
provided with a beveled slope of 1 in 2 that do not exceed ½ in. Changes greater than ½ in. shall meet the
requirements for 6.3.5.
6.3.4.2 Walking surfaces shall be mostly level; however, shall not exceed a slope of 1 in 20 in the direction of
travel unless meeting the requirements for ramps in 6.10.
6.3.5 Changes in Level. Changes in level exceeding 535 mm (21 in.) in elevation shall meet the requirements
for stairs in 0 or ramps in 6.10.
6.3.5.1 The change in level shall be readily apparent and if not, marked with additional signage or floor markings.
6.3.6 Slip Resistance. Walking surfaces, including stairway treads shall be uniformly slip resistant.
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6.3.7 Guards. Guards shall be provided in accordance with 6.12 on the open sides of means of egress
components where the elevation exceeds 760 mm (30 in.) above the ground or floor below.
6.3.8 Impediments to means of egress. No locks or other devices shall be installed on a means of egress
component that would prevent any occupant from having safe egress from the building or structure.
6.3.9 Reliability. Means of egress shall be maintained continuously free and clear of all obstructions or
impediments to full instant use in the case of fire or other emergency.
6.3.9.1 Furnishings, decorations. No furnishings, decorations, or other objects shall obstruct exits and access to
exits. Nothing shall obstruct or impede visibility to exits.
6.4 Occupant Load
6.4.1 The occupant load, in number of persons for whom means of egress are required, shall be determined on
the basis of the occupant load factors in BNBC Part 4 Section 3.5.1 that are characteristic for the use of
the space or the maximum probable population of the space, whichever is greater.
6.4.2 The occupant load factors from the BNBC are as follows:
(1)
Assembly with tables and chairs: 1.5 m2 per occupant (16 ft2 per occupant) net (2) Assembly without fixed seats: 0.7 m2 per occupant (7 ft2 per occupant) net
(3) Offices: 10 m2 per occupant (100 ft2 per occupant) gross
(4) Industrial: 10 m2 per occupant (100 ft2 per occupant) gross
(5) Storage: 30 m2 per occupant (300 ft2 per occupant) gross
(6) Hazardous: 10 m2 per occupant (100 ft2 per occupant) gross
6.4.2.1 RMG factories shall have a calculated occupant load of 2.3 m2 per occupant (25 ft2 per occupant). This
occupant load factor is permitted to be increased or decreased based on the actual number of occupants.
6.4.3 Increased occupant load. The occupant load is permitted to be increased above the calculated occupant
load provided that all other means of egress requirements for that higher occupant load are met.
6.4.4
Posting of occupant load. The occupant load shall be posted for every assembly and production floor in a facility in a conspicuous space near the main exit or exit access doorway for the space.
6.5 Egress Width
6.5.1 Minimum width of aisles. Aisles shall be provided with a minimum unobstructed clear‐width of 0.9 m
(36 in.).
6.5.2 Means of egress continuity. The path of egress travel along a means of egress shall not be interrupted by
any obstruction. The capacity of the means of egress shall not be reduced along the path of travel.
6.5.3 Capacity. The total capacity of the means of egress shall for any story, floor, or other occupied space shall
be sufficient for the occupant load as calculated in 6.4.1.
6.5.4 Capacity Factors. The capacity factors for calculating the available egress for each means of egress
component shall be in accordance with BNBC Part 4 Table 4.3.2 (repeated below).
6.5.4.1 For assembly use areas provided for prayer halls, dining halls and like areas as well as business areas that
are for integral use by the factory workers, the capacity factor for the primary occupancy use of the
building shall be permitted to be used.
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BNBC Table 4.3.2 Required Exit Width per Occupant
OccupancyBuildings without Sprinkler
System (mm per person)Buildings thoroughly Sprinkled
(mm per person)
Stairways Ramps &Corridors
Doors Stairways Ramps &Corridors
Doors
A ResidentialB EducationalF1,F2, Business &F4 MercantileG IndustrialH Storage
8 5 4 5 4 4
C1,C2, InstitutionalC3
10 5 4 5 5 4
C4 Institutional 8 5 4 8 5 4
D Health Care 25 18 10 15 12 10
E AssemblyF3 Business and
Mercantile10 7 5 7 5 5
J Hazardous 8 5 4 8 5 4
6.5.5 Sufficient Capacity. For new construction, where more than one means of egress is required, the means
of egress shall be of such width and capacity that the loss of any one means of egress leaves available not
less than 50 percent of the required capacity.
6.5.6 Minimum widths.
6.5.6.1
Doors.
6.5.6.1.1 Doors in an existing means of egress shall have a minimum width of 0.8 m (32 in.).
6.5.6.1.2 New doors in a means of egress shall have a minimum width of 1 m (39 in.).
6.5.6.2 Stairs.
6.5.6.2.1 In new construction and for newly constructed stairs, stairs shall have a minimum width of 1.5 m (60
in.) for all industrial occupancies and 2.0 m (79 in.) for all assembly occupancies. For assembly use
areas provided for prayer halls, dining halls and like areas that are for integral use by the factory
workers, the minimum width for the primary occupancy use of the building shall be permitted to be
used.
6.5.6.2.2
In existing construction, stairs shall have a minimum width of 0.9 m (35 in.).
6.6 Number of Means of Egress
6.6.1 General. The number of means of egress from any floor, story or portion thereof shall not be less than 2
except where a single exit is permitted by 6.6.2, a single means of egress is permitted by 6.6.5 or where a
greater number is required by 6.6.3.
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6.6.2 Single exits. Only one exit shall be required in existing buildings where the occupant load and travel
distance listed in Table 6.6.2 are not exceeded.
TABLE 6.6.2
STORIES WITH ONE EXIT
Story Occupancy Maximum Occupants per Floor and Travel Distance
Ground
or
Basement B 50 occupants and 23 m (75 ft) travel distance
E, F, G, K 50 occupants and 23 m (75 ft) travel distance
H 30 occupants and 30 m (100 ft) travel distance
J 5 occupants and 8 m (25 ft) travel distance
Second story F, G 30 occupants and 23 m (75 ft) travel distance
H 30 occupants and 23 m (75 ft) travel distance
6.6.3 High occupant load. The number of means of egress from any floor or story shall not be less than 3 when
the occupant load exceeds 500 per story and not less than 4 when the occupant load exceeds 1000 per
story.
6.6.4 Occupied roofs. Occupied roofs shall be provided with the minimum number of exits required as a story.
6.6.5 Spaces with One Means of Egress. A single means of egress shall be permitted for spaces having an
occupant load of not more than 49 and where the common path of egress travel does not exceed the
limitations of 6.13.2.
6.6.6 Arrangement of Exits. Where two or more exits or means of egress are required, the exit doors or means
of egress openings shall be located a distance apart equal to not less than one‐half of the length of the
maximum overall diagonal dimension of the building or area to be served measured in a straight line
between exit doors or egress openings. Where the building is provided with a complete automatic
sprinkler system, the separation of the exits or means of egress openings shall be not less than one‐third
of the maximum overall diagonal dimension.
6.7 Egress Illumination. All paths of egress shall be provided with illumination in accordance with Part 10 of
this Standard.
6.8 Doors and Gates
6.8.1 Door swing. All doors in a means of egress shall be of the side‐hinged swinging type. Roll‐down and
sliding gates and shutters shall not be allowed. Doors serving an occupant load of more than 50 shall
swing in the direction of egress travel.
6.8.2 Locking.
6.8.2.1 General. Doors shall not be locked in the direction of egress under any conditions. All existing hasps,
locks, slide bolts, and other locking devices shall be removed unless provided for in 6.8.2.2 and 6.8.2.3.
6.8.2.2
Doors may
be
locked
where
the
latch
and
lock
are
disengaged
with
one
motion
where
the
occupant
load
does not exceed 49 persons. Turning a door handle and disengaging a lock is considered two motions.
6.8.2.3 Doors may be provided with locking hardware from the ingress side provided that a panic bar is installed
on any door with an occupant load exceeding 49 persons. The re‐entry provisions of 0 must be met.
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Figure 6.8.3.1
(c).
Required
re
‐entry
floors
when
starting
at
the
top
level
for
several
different
height
buildings.
Figure 6.8.3.1 (d). Required re‐entry floors when starting at the next to top level for several different height
buildings.
6.8.4
Warehouse. Doors
to
storage
buildings
shall
be
in
compliance
with
BNBC
Part
4
Section
3.24.2.
6.8.5 Landings. A landing shall be provided on both sides of doors used in the means of egress. Door shall not
swing out over stairs.
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6.9 Stairs.
6.9.1 New Construction. Newly constructed stairs shall be in compliance with BNBC Part 3 Section 1.12.5.
6.9.2 Existing. Existing stairs shall meet the requirements of this subsection.
6.9.2.1 Stairs shall be of noncombustible construction.
6.9.2.2 Landings. Landings shall be provided with same width in the direction of egress travel as the stair clear
width shall be provided at each level and at intermediate landings. Existing landings that are less than the
stair width, shall reduce the overall available capacity of the stair as calculated in 6.5.
6.9.2.3 Treads. Stair treads shall be of nominal uniformity.
6.9.2.3.1 The maximum riser height for any stair shall be 215 mm (8.5 in.).
6.9.2.3.2 Any riser height at the top or bottom step in a stair run exceeding more than 51 mm (2 in.) difference
from the adjacent riser height shall be modified to be within this tolerance.
6.9.2.3.3 Any riser height or tread depth not at the top or bottom step in a stair run exceeding more than 25
mm (1 in.) difference from the adjacent step shall be modified to be within this tolerance.
6.9.2.3.4 For existing stairs that do not meet these tread dimensions and will require extensive rework of the
stairway, a full detailed analysis of the tread dimensions can be submitted to the Authority for review
and approval of an alternate corrective action plan.
6.9.2.4 Handrails. Handrails shall be provided on both sides of each stairway. Intermediate handrails shall be
provided when the stair width exceeds 2.2 m (87 in.).
6.9.2.5 Guards. Guards shall be provided in stairs in accordance with 6.12.2.
6.9.3 Signs.
6.9.3.1 Stair designation signs shall be provided at each floor entrance from the stair to the floor in English and
Bengali. Signs shall indicate the name of the stair and the floor level. Signs shall be posted adjacent to
the door.
6.10 Ramps.
6.10.1 Width. Ramps used in a means of egress shall not reduce the overall means of egress width. The
minimum width shall be 1.1 m (44 in.).
6.10.2 Slope. New ramps shall not have a running slope greater than 1 in 12 (8 percent). Existing ramps shall
not have a running slope greater than 1 in 8 (12.5 percent).
6.10.3 Handrails. Ramps shall be provided with handrails on both sides of the ramp.
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6.11 Exit Signs.
6.11.1 Location. Lighted exit signs shall be placed at